Using a new artificial intelligence identifying method, researchers at UC San Diego and its collaborators have taken what may turn out to be a significant leap forward in the understanding of human ...

Using an innovative new approach to sampling corals, researchers are now able to create maps of coral biochemistry that reveal with unprecedented detail the distribution of compounds that are integral ...

Artificial intelligence-based technique reveals previously unknown cell components that may provide new clues to human development and disease. Most human diseases can be traced to malfunctioning ...

Most human diseases can be traced to malfunctioning parts of a cell — a tumor is able to grow because a gene wasn't accurately translated into a particular protein or a metabolic disease arises ...

Students in our program develop a strong foundation in basic chemistry, as well as exposure to a wide range of technologies that are specific to the analysis of biological systems. This gives them a ...

The student will investigate how protein arginine methylation, a type of post-translational modification commonly found in RNA-binding proteins, regulates the function of an evolutionarily conserved ...

Most human diseases can be traced to malfunctioning parts of a cell — a tumor is able to grow because a gene wasn’t accurately translated into a particular protein or a metabolic disease arises ...

Using a new artificial intelligence identifying method, researchers at UC San Diego in La Jolla and their collaborators have taken what may turn out to be a leap forward in the understanding of human ...

(Nanowerk News) Most human diseases can be traced to malfunctioning parts of a cell — a tumor is able to grow because a gene wasn’t accurately translated into a particular protein or a metabolic ...